DE4230626C2 - Method and device for volume flow measurement on belt conveyors using ultrasound - Google Patents

Description

The invention relates to a method for volume flow measurement of bulk material goods, especially coal and overburden, on conveyors, especially belt conveyors, through cont Nuclear determination of the contour of the free surface of the bulk material flow mes by continuous non-contact distance measurement with at least a transmit / receive unit operating on the pulse transit time measuring principle direction, which is followed by a computer,  the distance measurement by at least three ultrasound Sensors is made and the running times of the sound as Measured values following the transducers connected downstream of the scanning are supplied, which correspond to the measured times Assign dumping height. The invention further relates to a device at least three ultrasonic sensors above a conveyor as well as a downstream computer with output display, in particular to carry out the method.  

DE 34 11 540 C2 relates to a method for determining the material to be conveyed volume flow of bulk material conveyed by means of belt conveyors or the like tern by continuously determining the contour of the free surface of the Bulk goods transversely to the conveying direction through continuous contact-free Distance measurement using at least one after the impulse run time-measuring principle working transmitting / receiving device, which is a computer is connected downstream and filling cross-section calculation. As an advantageous send / receive direction are at least two each emitting a laser beam and the laser distance measurement receiving the respectively reflected laser beam devices used, the rays approximately perpendicular to the conveyor Direction of the bulk goods and each one in one of the bulk goods Laser distance arranged between 2 and 20 m distance Verungsmeßvorrichtung one of several ver over the bulk cross-section shared measuring points is assigned. The advantages of laser scanning are essentially due to the fact that this is a correct cross-section recording of the bulk material profile is possible. However, the disadvantage is increased technical effort in laser technology to see the one not inconsiderable increase in the cost of the overall measurement principle.  

Furthermore, in DE 34 11 540 C2 the possibility is given that Contour of the free surface of the bulk material flow through an ultrasound Distance measuring device to determine.

In the DE-Z. Technischen Messen atm (1976), 7/8, pages 249-253 in section 4.6 a method for flow measurement on transient Multi-phase flows using radiotracers disclosed. Notes, too promoting bulk material in a volume flow measurement distinguish them and record them by weight Publication not.

In the GB-Z. Fuel, 1978, Vol 57, Oct., pages 592-604, there is one Summary and evaluation of the so-called Mössbauer spectroscopy, by means of which mineral contents can be recognized. The ones disclosed here Connections are not related to one Volume flow measurement of bulk materials of different materials.

The object of the invention is a generic method to further develop that the material to be funded under divorced, recorded by weight and counted. The funded Mass flow should be displayed absolutely in t as well as extrapolated The instantaneous value must be shown in t / h. In addition to the evaluation of the absolutely funded goods should be a profile picture of the current funding Gutstromes are generated, the cost of the measuring method in represents should remain within a reasonable framework. After all, one is supposed to follow this procedure working facility designed to perform the above tasks also takes into account.  

According to the invention, this object is achieved by that at least one under Half of the conveyor provided radiation meter the bulk volume proportions, especially of coal and overburden, and that the measured values the sensors and the radiation meter are fed to the computer, the performs the calculation of the volume and mass flow and that Shows the measurement result on a display.

Advantageous developments of the subject matter of the invention are the procedure see subordinate claims.  

A device with at least three ultrasonic sensors above one Conveyor and a computer connected to it Output display, especially to carry out the The method according to the invention is characterized by at least one Radiation meter below the conveyor, the computer and the output display is also connected downstream of the radiation measuring device are. The computer  is preferably formed by a programmable logic controller, which, in addition to the CPU as the main component, also has at least one voltage Supply module, at least one analog input module, at least one Digital input module and at least one digital output module as Peri Pherie and controller board included.

The ultrasonic sensors suspended transversely to the conveying direction feel it Conveyed goods continuously. To differentiate the materials, esp special of coal and overburden, there is a radiation meter under the Conveyed goods, d. H. below the conveyor, so in spite of the un different specific bulk densities to a correct mass current value to arrive.

The measured values of the sensors and the radiation measuring device are a computer fed, which processes the values as follows:

• - Checking the correct belt run,
• - reading in the values of the radiation measuring device,  
• - Reading in, standardization and plausibility check of the measured fill level,
• - calculation of a main area from the measured value of the middle sensor,
• - Calculation of a possible additional area caused by uneven loading of the belt conveyor,
• - addition of both surfaces,
• - calculation of volume and mass flow,
• - Extrapolation and output of the value for the current masses current in t / h,
• - Totalization of material flow values and pulse control for the external absolute counter in t,
• - control of the displays for the different materials, especially coal and overburden,
• - Generation of the sectional image and output of the corresponding Signals for display on a profile display.

The calculated values of the computer are sent to a counter, which the absolutely conveyed material flow in t, as well as to the profile dis play output. In addition to the displays for the different materials, especially coal and overburden, and the currently extrapolated mass flow in t / h a graphic representation of the belt conveyor on which the various loading conditions of the conveyor rers can be visualized. This is done, for example, by activation individual light columns through the computer. The radiation meter adjusts pure measuring device for the detection of radiation, with no overburden or has only a small intrinsic radiation and ultimately it does recycling materials include measurable radiation.

The invention is based on an embodiment in the drawing shown and is described as follows.

The single figure shows a schematic diagram of a conveyor 1 in the form of a conveyor belt that is loaded with bulk material 2 . Above the bulk material 2 , three ultrasonic sensors 3 are suspended transversely to the conveying direction and below the bulk material 2 , ie below the belt conveyor 1 , a discriminator or radiation measuring device 4 is provided. The measured values determined by the ultrasound sensors 3 and the radiation measuring device 4 are fed to a computer 5 , which processes them using appropriate software and feeds them to a profile display 6 . Furthermore, an external counter 7 is provided for the absolute delivery rate, which is also connected to the computer 5 .

The procedure is roughly as follows:

The ultrasound sensors 3 measure the distance between themselves and the bulk material surface 8 , the propagation times of the sound being supplied as measured values following transducers 9 which connect the measured times to a corresponding fill level. The provided between the lower rollers 10 of the conveyor belt 1 radiation measuring device 4 detects radiation emanating from the bulk material and can therefore make a corresponding division. For example, the radiation measuring device 4 can differentiate between radiating coal and non-radiating overburden. The measured values of the sensors 3 and the radiation measuring device 4 are fed to the computer 5 , in which the calculation of the volume and mass flow is carried out. The sensors 3 work here with a sound frequency of 38 kHz and the sampling takes place with a pulse frequency of 5 Hz. In addition to the calculation, the computer 5 also carries out a plausibility check of the fill level values generated by the converters 9 , the converters 9 integrating the fill level values into one convert the current equivalent to the height. After reading in the values of the radiation measuring device 4 and reading in, standardizing and checking the plausibility of the filling levels measured in each case, the computer 5 carries out the determination of a main area from the measured value of the middle sensor 3 . In addition, a possible additional area is determined, which is caused by uneven loading of the belt conveyor 1 . The areas are added and the volume and mass flow can be calculated.

The computer also carries out an extrapolation of the value for the current mass flow, a summation of the material flow values and pulse control for at least one external absolute counter 7 and control of the displays for the bulk material components. In addition to the displays of the bulk material components and the respective extrapolated instantaneous value for the mass flow, a graphic representation 11 of the conveying device 1 is also shown on the display 6 for the visualization of the various loading conditions.

Claims (9)

1. Method for volume flow measurement of bulk materials, in particular coal and overburden, ( 2 ) on conveying devices, in particular belt conveyors ( 1 ), by continuously determining the contour of the free surface ( 8 ) of the bulk material flow by continuous contact-free distance measurement with at least one after the pulse -Runtime measuring principle working transmitting / receiving device ( 3 ), which is followed by a computer ( 5 ), the distance measurement being carried out by at least three ultrasound sensors ( 3 ) and the running times of the sound being connected as measured values following the scanning th transducers ( 9 ) are supplied which assign the measured times to a corresponding bed height, characterized in that at least one radiation measuring device ( 4 ) provided below the conveying device ( 1 ) contains the bulk volume fractions and that the measured values of the sensors ( 3 ) and the radiation measuring device ( 4 ) the computer ( 5 ) are supplied, which performs the calculation of the volume and mass flow and shows the result on a display ( 6 ). 2. The method according to claim 1, characterized in that the sensors ( 3 ) work with a sound frequency of 38 kHz and the sampling is carried out with a pulse frequency of 5 Hz. 3. The method according to claims 1 and 2, characterized in that the bed heights generated by the converter ( 9 ) in the computer ( 5 ) are checked for their plausibility. 4. The method according to claims 1 to 3, characterized in that the bulk height values converted into a current equivalent to the height be delt.   5. The method according to claims 1 to 4, characterized in that the computer ( 5 ) after reading in the values of the discriminator ( 4 ) and reading, standardization and plausibility check of the respective measured heights, the calculation of a main area from the measured value of the middle sensor ( 3 ) is carried out, then a possible additional area is determined, which is caused by uneven loading of the conveyor ( 1 ) and finally the volume and mass flow are calculated after the addition of the two areas. 6. The method according to claims 1 to 5, characterized in that the computer ( 5 ) in addition an extrapolation of the value for the current mass flow, a summation of the material flow values and pulse control for at least one external absolute counter ( 7 ) and the control of the displays for the Performs bulk components. 7. The method according to claims 1 to 6, characterized in that on the display ( 6 ) in addition to the displays of the bulk material components and the extrapolated instantaneous values for the mass flow also a graphical representation ( 11 ) of the conveyor ( 1 ) for visualizing the different loading conditions is made. 8. Device for volume flow measurement of bulk goods ( 2 ), in particular coal and overburden, on conveying devices, in particular special belt conveyors ( 1 ), with at least three ultrasonic sensors ( 3 ) above a conveying device ( 1 ) and a computer connected downstream thereof ( 5 ) together with the output display (6), in particular for implementing the method according to claims 1 to 7, characterized by at least one below the conveyor (1) arranged radiation measuring device (4), wherein the computer (5) and the output display (6 ) are also connected downstream of the radiation measuring device ( 4 ). 9. Device according to claim 8, characterized in that the computer is formed by a programmable logic controller, which in addition the CPU as the main component at least one power supply supply module, at least one analog input module, at least one Digital input module and at least one digital output module as Peripheral and controller board included.